Fouling and stiction resistant coating

We claim: 1. A fouling and stiction-resistant coating, comprising: a silicone undercoat layer; and a powdery topcoat layer on said silicone undercoat layer, said coating adapted for application to a surface that is subject to fouling; said powdery topcoat layer arranged to be penetrable by the feet of barnacles that come into contact with said powdery topcoat layer, and said silicone undercoat layer arranged such that at least some of the barnacles' feet that penetrate said powdery topcoat layer bond with said silicone undercoat layer; said powdery topcoat layer further arranged to peel away from said silicone undercoat layer when force is applied to barnacles which have penetrated said powdery topcoat layer to remove them from said coating; such that said coating both resists fouling in the presence of marine life and reduces stiction between surfaces to which said coating has been applied. 2. The coating of claim 1 , wherein said powdery topcoat layer is a fluoropolymer. 3. The coating of claim 2 , wherein said fluoropolymer is not continuous. 4. The coating of claim 2 , wherein said fluoropolymer is non-toxic. 5. The coating of claim 2 , wherein said fluoropolymer is non-uniform and hydrophobic. 6. The coating of claim 2 , wherein said fluoropolymer is a tetrafluoropolymer. 7. The coating of claim 2 , wherein said powdery topcoat layer has a thickness of 100 nm-1 micron. 8. The coating of claim 2 , wherein said fluoropolymer is selected from a group consisting of polytetrafluoroethylene (PTFE) (Teflon), fluorinated ethylene propylene (FEP), polyfluoroalkoxy (PFA), ethylene tetrafluoroethylene (ETFE), and ethylene chlorotrifluoroethylene (ECTFE). 9. The coating of claim 1 , wherein said silicone undercoat layer has a thickness of 50 microns-500 microns. 10. The coating of claim 1 , wherein said silicone undercoat layer comprises a UV-cured silicone, a room temperature-cured silicone (RTV), or a thermally cured silicone. 11. The coating of claim 1 , further comprising a primer layer under said silicone undercoat layer. 12. The coating of claim 11 , wherein said primer layer has a thickness of 10 nm-10 microns. 13. The coating of claim 11 , wherein said primer layer comprises an epoxy-modified siloxane. 14. The coating of claim 11 , further comprising a substrate layer under said primer layer, said primer layer arranged to improve the adhesion of said silicone undercoat layer to said substrate layer. 15. The coating of claim 1 , further comprising a substrate layer under said silicone undercoat layer. 16. The coating of claim 15 , wherein said substrate layer comprises polyurethane. 17. The coating of claim 15 , wherein said substrate layer has a thickness of 1 mm-1 cm. 18. The coating of claim 1 , further comprising a cable on which said coating is applied. 19. The coating of claim 18 , wherein said cable is a marine streamer, said coating arranged to reduce stiction between streamer sections when said streamer is spooled. 20. A marine streamer with a fouling and stiction-resistant coating, comprising: a substrate layer; a primer layer on said substrate layer; a silicone undercoat layer on said primer layer; and a powdery topcoat layer on said undercoat layer; said coating arranged to resist fouling and to reduce stiction between streamer sections when said streamer is spooled; said powdery topcoat layer arranged to be penetrable by the feet of barnacles that come into contact with said powdery topcoat layer, and said silicone undercoat layer arranged such that at least some of the barnacles feet' that penetrate said powdery topcoat layer bond with said silicone undercoat layer; said powdery topcoat layer further arranged to peel away from said silicone undercoat layer when force is applied to barnacles which have penetrated said topcoat to remove them from said streamer.